Abstract
Hydrogenous ferromanganese crusts are a common feature of oceanic seamounts, forming slowly (predominantly at 1 to 5 mm/m.yr through precipitation from seawater, by a process that is poorly understood yet producing crusts of thicknesses up to 240 mm. It remains unexplained why crusts are not overwhelmed by more rapid biological processes occurring simultaneously. The present study of recruitment by sessile invertebrates to ferromanganese crusts and basalt on Cross Seamount (18°40′N; 158°17′W), North Pacific Ocean, from July 1988 to February 1990 supports the view that hydrogenesis alone may not adequately account for crust formation. Here, mediation of crust growth by benthic Foraminifera and inhibition of ferromanganese oxide precipitation by high abundances of sessile macrofauna are suggested as two interactive biological processes relevant to crust accretion. Larval supply is an important factor in the distribution of sessile macrofauna on oceanic seamounts.
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Boehlert, G., Genin, A. (1987). A review of the effects of seamounts on biological processes. In: Keating, B., Fryer, P., Batiza, R., Boehlert, G. (eds.) Seamounts, islands and atolls. American Geophysical Union, Washington, D.C., p. 319–334
Crisp, D. (1981). Overview of resarch on marine invertebrate larvae. In: Costlow, J., Tripper, R. (eds.) Marine biodeterioration. Naval Institute, Annapolis, Maryland p. 103–126
Dudley, W. (1979). Biogenic influence on the composition and structure of marine manganese nodules. In: Lalou, C. (ed.) La genèse des nodules de manganèse. Centre Nationale des Recherches Scientifiques, Paris, p. 227–232
Dugolinsky, B., Margolis, S., Dudley, W. (1977). Biogenic influence on growth of manganese nodules. J. Sedim. Petrol. 47: 428–445
Genin, A., Dayton, P., Lonsdale, P., Spiess, F. (1986). Corals on seamount peaks provide evidence of current acceleration over deep-sea topography. Nature, Lond. 322: 59–61
Grigg, R., Malahoff, A., Chave, E., Landahl, J. (1987). Seamount benthic ecology and potential environmental impact from manganese crust mining in Hawaii. In: Keating, B., Fryer, P., Batiza, R., Boehlert, G. (eds.) Seamounts, islands and atolls. American Geophysical Union, Washington, D.C., p. 379–390
Halbach, P. (1986). Processes controlling heavy metal distribution in Pacific ferromanganese nodules and crusts. Geol. Rdsch. 75: 235–247
Hein, J., Morgenson, L., Clague, D., Koski, R. (1987). Cobalt-rich ferro-manganese crusts from the exclusive economic zone of the United States and nodules from the oceanic Pacific. In: Scholl, D., Grantz, A., Vedder, J. (eds.) Geology and resource potential of the Continental Margin of Western North America and adjacent ocean basins — Beaufort Sea to Baja California. Circum-Pacific Council for Energy and Mineral Resources, Houston, Texas, p. 753–771
Hein, J., Schulz, M., Gein, L. (1991). Central Pacific cobalt-rich ferromanganese crusts: historical perspective and regional variability. In: Keating, B., Bolton, B. (eds.) Geology and offshore mineral resources of the Central Pacific Basin. Circum-Pacific Council for Energy and Mineral Resources, Houston, Texas, p. 261–283
Ingram, B., Hein, J., Farmer, G. (1990). Age determinations and growth rates of Pacific ferromanganese deposits using strontium isotopes. Geochim. cosmochim. Acta 50: 1709–1721
Jumars, P., Gallagher, E. (1982). Deep-sea community structure: three plays on the benthic proscenium. In: Ernst, W., Morin, G. (eds.) The environment of the deep sea. Prentice-Hall, Englewood Cliffs, New Jersey, p. 218–255
Levin, L., Thomas, C., Wishner, K. (1990). Response of benthic fauna to steep oxygen and organic matter gradients on an eastern tropical Pacific seamount. Eos Trans., Am. geophys. Un. 71: p. 155
Lutz, R., Jablonski, D., Turner, R. (1984). Larval development and dispersal at deep-sea hydrothermal vents. Science, N.Y. 226: 1451–1454
Malahoff, A., Grigg, R., Vonderhaar, D., Kelly K., Arquit, A. (1985). Mass wasting and manganese crust growth on Cross Seamount, Hawaii. Eos Trans., Am. geophys. Un. 66: 1083–1084
Margolis, S. V., Burns, R. G. (1976). Pacific deep-sea manganese nodules: their distribution, composition and origin. A. Rev. Earth planet. Sciences 4: 229–263
Margolis, S., Dugolinsky, B., Dudley, W. (1979). Microchemistry and morphology of biogenic, detrital and authigenic phases in Pacific manganese nodules. In: Lalou, C. (ed.) La genèse des nodules de manganèse. Centre Nationale des Recherches Scientifiques, Paris, p. 179–209
Mullineaux, L. (1987). Organisms living on manganese nodules and crusts: distribution and abundance at three north Pacific sites. Deep-Sea Res. 34: 165–184
Mullineaux, L. (1988). The role of settlement in structuring a hard-substratum community in the deep sea. J. exp. mar. Biol. Ecol. 120: 247–261
Pringle, M., Staudigel, H., Gee, J. (1991). Jasper Seamount: seven million years of volcanism. Geology (Boulder, Colorado) 19: 364–368
Riemann, F. (1983). Biological aspects of deep-sea manganese nodule formation. Oceanol. Acta 6: 303–311
Segl, M., Mangini, A., Bonani, G., Hofmann, H., Morenzoni, E., Nessi, M, Suter, M. and Wolfli, W. (1984). 10Be dating of the inner structure of Mn-encrustations applying the Zurich tandem accelerator. Nucl. Instrum. Meth. Phys. Res. B5: 359–364
Stackelberg, U. von (1984). Significance of benthic organisms for the growth and movement of manganese nodules, equatorial north Pacific. Geo-mar. Lett. 4: 37–42
Thiel, H. (1978). The faunal environment of manganese nodules and aspects of deep sea time scales. In: Krumbein, W. (ed.) Environmental biogeochemistry and geomicrobiology. Ann Arbor Science Publishers, Ann Arbor, Michigan, p. 887–896
Wendt, J. (1974). Encrusting organisms in deep-sea manganese nodules. Spec. Publs int. Ass. Sediment. 1: 437–447
Wilson, R., Kauffmann, R. (1987). Seamount biota and biogeography. In: Keating, B., Fryer, P., Batiza, R., Boehlert, G. (eds.) Seamounts, islands and atolls. American Geophysical Union, Washington, D.C., p. 355–377
Zar, J. (1984). Biostatistical analysis. 2nd ed. Prentice Hall, Englewood Cliffs, New Jersey, p. 126–138
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Communicated by M. G. Hadfield, Honolulu
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Verlaan, P.A. Benthic recruitment and manganese crust formation on seamounts. Marine Biology 113, 171–174 (1992). https://doi.org/10.1007/BF00367651
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DOI: https://doi.org/10.1007/BF00367651